A breakthrough in bioprinting of living tissues could soon lead to 3D-printing of blood vessels and human organs, ushering in ...

Adding engineered human blood vessel-forming cells to islet transplants boosted the survival of the insulin-producing cells ...

Researchers reveal that the loss of mucin-type O-glycosylation in the brain endothelial glycocalyx weakens the blood-brain ...

Transplanting insulin-producing cells along with engineered blood-vessel-forming cells has successfully reversed type 1 ...

Adding engineered human blood vessel-forming cells to islet transplants boosted the survival of the insulin-producing cells and reversed diabetes in a preclinical study led by Weill Cornell ...

Adding engineered human blood vessel-forming cells to islet transplants boosted the survival of the insulin-producing cells and reversed diabetes in a preclinical study led by Weill Cornell Medicine ...

New bioprinting development may lead to 3D printed human organs. Northeastern University researchers have designed a new elastic material.

A breakthrough in bioprinting of living tissues could soon lead to 3D-printing of blood vessels and human organs, ushering in a new era of regenerative medicine. Guohao Dai, a bioengineering ...

Islet Transplantation with Blood Vessel Cells Shows Promise to Treat Type 1 Diabetes Adding engineered human blood vessel-forming cells to islet transplants boosted the survival of the insulin ...

Researchers have developed a method using engineered blood vessel cells (R-VECs) to improve islet transplantation which could ...